A source of sound of frequency `1.8kHz` moves uniformly along a straight line at a distance `250m` from observer. The velocity of source is `0.8C` where `C` is the velocity of sound. Find out the frequency of sound received by observer (in kHz) at the moment when the source gets closest to him.

A source of sound with natural frequency f_0=1800Hz moves uniformly along a straight line separated from a stationary observer by a distance l=250m . The velocity of the source is equal to eta=0.80 fraction of the velocity of the sound. Q. Find the frequency of osund received by the observer at the moment when the source gets closest to him.

A source of sound with natural frequency f_0=1800Hz moves uniformly along a straight line separated from a stationary observer by a distance l=250m . The velocity of the source is equal to eta=0.80 fraction of the velocity of the sound. Q. The distance between the source and the observer at the moment when the observer receives a frequency f=f_0 is

A source of sound emitting a 1200 Hz note travels along a straight line at a speed of 170 m s^-1 . A detector is placed at a distance of 200 m from the line of motion of the source. (a) Find the frequency of sound received by the detector at the instant when the source gets closest to it. (b) Find the distance between the source and the detector at the instant it detects the frequency 1200 Hz. Velocity of sound in air = 340 m s^-1 .

A source of sound of frequency 1000 H_(Z) moves unifornly along a straight line with velocity 0.8 times velocity of sound . An observer is located at a distance l= 250 m from this line. Find (a) the frequency of the sound at instant when the source is closest to the observer. (b) the distance of the source when he observer no change in the frequency.

An engine is continuously emitting sound of frequency 1.2 kHz moving uniformly along a straight track. A stationary listener is situated off the track at a perpendicular distance of l = 350 m. The velocity of engine is equal to 50 m/s and the velocity of sound is 350 m/s. Find the frequency of sound received by the listener at the moment when the engine gets closest to him.

The velocity of source of sound when the frequency appears to be double the actual frequency of stationary observer will be

A source of sound of frequency 500 Hz is moving towards an observer with velocity 30 m/s . The speed of sound is 330 m/s . the frequency heard by the observer will be

A source of frequency n is moving with a uniform velocity v towards a stationary observer. If the velocity of sound is V, then the change in frequency would be -